Shaping Tomorrow’s Vision
AUTOMOTIVE INDUSTRY
Unlocking our product lines an brands
Welcome to Solutions for High-Tech Products – your premier source for advanced equipment, opto-electronic components, and precision measurement instruments. We provide cutting-edge solutions designed to optimize research and development (R&D) processes and enhance various industrial applications. Our extensive portfolio ensures that you receive the highest quality products to meet your specific needs.
Ask our experts how our expertise can drive innovation and efficiency in your industry.
Applications
Crash test with pco cameras
The pco.dimax cs camera is specially designed for all applications centered around car safety testing involving onboard, offboard and sled testing. A unique capability of all pco.dimax systems is the built-in automatic image calibration that requires no user intervention. The small, lightweight and ruggedized form factor allows for mounting in a multitude of positions. A quick-change lens adapter for popular mounts such as C, F and EF provides the highest test site flexibility. For on-site ease of viewing, an HD-SDI video output and automated lens control are included. With secure synchronization in multi-camera environments, the pco.dimax cs will provide crisp, brilliant color images in any challenging car safety testing situation.
Crash test with fast camera pco.dimax
PCO high-speed cameras have recorded slow motion sequences during various Crashtests at CTS Crash Test Facility (www.crashtest-service.com/en), Münster. PCO (www.pco.de) has been there with a few high-speed camera systems pco.dimax cs3 and cs4. The sequences were recorded at Full HD (1920×1080 pixel) at 2000 frames/s.
Crash tests in SKODA laboratory
ŠKODA carries out a number of crash tests in its crash laboratory, most of them during the development of a car to verify the functionality of its design. However, it also carries out tests for homologation purposes and to verify crash tests according to Euro NCAP parameters. One of the equipment used for tests is pco.dimax high speed camera
In the laboratory, cars undergo various tests, including a 100% frontal impact at 50 km/h with female dummies, a 40% frontal impact at 56 and 64 km/h. Other tests involve verifying airbag deployment thresholds at different speeds, side impacts at 32 km/h into a pillar, deformable barrier impacts at 60 km/h, and rear impacts with a trolley at 30, 50, or 80 km/h with 70% displacement.
You can find more information about SKODA laboratory tests on SKODA LAB website.
With all inquiries about the equipment please CONTACT us.
Leather processing
CO₂ lasers enable high-speed, precise cutting and engraving of natural and synthetic leather, unlocking endless design possibilities across fashion, automotive, and furniture industries.
Airbag processing
CO₂ lasers provide precise, non-contact trimming of airbag fabrics and scoring of interior panels, ensuring reliability, minimal waste, and seamless integration in automotive safety systems.
Backlight unit (BLU) patterning
CO₂ lasers with AOM technology create precise, uniform backlighting patterns on PMMA, ensuring consistent light distribution with minimal heat effects.
Robotic plastic cutting
Laser systems integrated with robotics enable precise cutting, trimming, and shaping of 3D plastic components in automotive manufacturing.
Rubber cutting & drilling
Laser cutting and drilling provide precise, contact-free processing of rubber components, enhancing efficiency and eliminating tool wear in automotive and industrial applications.
Cutting FR4 PCB Laminates
Laser cutting offers a precise, contact-free alternative to mechanical methods, reducing debris and delamination risks in FR4 circuit boards.
Car textile cutting
Laser cutting provides a fast, precise, and flexible solution for automotive textiles, efficiently trimming and shaping materials like upholstery, seatbelts, and airbags.
Plastic cutting
CO₂ laser cutting offers an efficient, precise solution for processing plastics across various industries, with results dependent on material composition.
Electric motor hairpin processing
Laser processing efficiently removes enamel insulation from copper hairpins in EV motors, ensuring precise, contact-free preparation for welding with minimal downtime.
Alumina scribing
CO₂ lasers precisely drill controlled blind holes for scribe-and-break separation of ceramic components, ensuring fast, reliable processing with clean breaks.